sales maximization technique is generally used in scale industries where base of the expenses is largelly fixed and where variable costs are limited. on the other hand profit maximization technique are used by variety of industries. total output is higher in sales maximization as compared to profit maximization
grapevine is base on assumption because there is lack of information whilst rumour is base on un verifiedffac1t as a result of lack of formal communication
The key difference between profit maximization and sales maximization focuses on the handling of costs/expenses. Sales maximization is a topline income statement action that attempts to maximize sales revenues. Sales maximization techniques are used in scale industries where the expense base is largely fixed and there are limited variable costs associated with acquiring the next dollar of sales. Profit maximization is a multiline income statement action that attempts to both maximize sales (as represented above) while minimizing expenses in order to maximize effective margin. Profit maximization techniques are used across a variety of industries.
there is have some differeance . 1.
Each industry has differences in terms of its customer base, market share among. The demand and supply for a stock or asset based on recent trading volume.
what are the differences between an acaid, a base and a salt
The unique base sequence if the individuals dnA
A cone has a round base and a pyramid has a base with 3 or more angles.
base is the 2D face of a figure the height is the extension of the 2D face That's why Area=Base*Height
difference between layered and kernel base approach in OS structure
chemical based industries is industries that use chemical to production of goods are called chemical based industries
Earthen dams have very wide base and suitable to pervious foundation.
A strong base disassociates almost 100% in solution, while a weak base may only disassociates to 2% to 3% in solution.
Transversion and transition are two types of point mutations in genetics. Transversion is a mutation where a purine base is replaced by a pyrimidine base, or vice versa. Transition, on the other hand, is a mutation where a purine base is replaced by another purine base, or a pyrimidine base is replaced by another pyrimidine base. These differences in base substitutions can have varying effects on the resulting protein or gene function.
The fundamental units are based on specific standards for each unit. Derived units result from manipulating the fundamental units. For example, the SI unit for distance or length is the meter, and the SI unit for time is the second. If you divide meters by seconds, you get m/s, a derived unit for speed or velocity.
The nitrogenous base portion of a nucleotide accounts for the genetic variation between individuals. The specific sequence and arrangement of the nitrogenous bases (adenine, thymine, cytosine, and guanine) in DNA determine genetic differences between individuals.
Ampere is a fundamental unit because it is a base unit in the International System of Units (SI) and is used to measure electric current. It is defined in terms of the force between two parallel conductors carrying current, making it a fundamental aspect of electromagnetism and essential for understanding electricity in physics and engineering.